KR20140145061A - Tubular light-emitting lamp and lighting device - Google Patents

Abstract

A support frame is metal and includes an attachment unit, a foundation unit, a pair of side units, and a combination unit. The foundation unit and the side units are formed to be thicker than the attachment unit and the combination unit. The attachment unit is installed in the other side of a substrate to face one side of the substrate of a radiation body with the inside of a resin pipe. The foundation unit is formed to follow the inside of the resin pipe, which is the uttermost part opposite to one side of the substrate from the attachment unit, in a longitudinal direction. The side units is installed to protrude from the attachment unit on both sides of the shortest direction of the attachment unit to one side of the substrate. The combination unit combines the foundation unit and the attachment unit, or the side units.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an intrinsic light emitting lamp,

An embodiment of the present invention relates to an introductory light-emitting lamp having a semiconductor light-emitting element as a light source and an illumination apparatus including the intrinsic lamp.

Conventional straight tube fluorescent lamps have been used for illumination in offices and the like, but intuitive type LED lamps using LEDs with low power consumption and long life spans are being used. In the direct-tube type LED lamp, a long substrate on which an LED is mounted is attached to a metal base, and the base is accommodated in a cylindrical outer appearance. The base is formed of a columnar body having an arc-shaped surface along the inner circumferential surface of the outer tube and a flat mounting surface to which the substrate is attached, and is formed of a metal having a high thermal conductivity, for example, aluminum. The base is formed of a column (mass) and has a corresponding rigidity and a corresponding weight.

Even if the LED lamp has a stiffness, the straight LED lamp tends to bend in the longitudinal direction depending on its weight, and the longer the total length, the more easily the bending is likely to occur. In addition, the intuitive LED lamp has a weight corresponding to the above expectation and has a weight corresponding to a longer overall length. In addition, the light weight of the intuitive type LED lamp is easy to handle and it is desired to reduce the weight of the lamp. In addition, since the aluminum forming the base is a relatively expensive metal, it is desired to reduce the formation amount of the base plate and to reduce the weight of the base plate from the viewpoint of cost reduction and resource saving of the straight tube type LED lamp.

In order to reduce the amount of formation of the base and to reduce the weight, it is conceivable to provide a through hole or a hollow portion extending in the longitudinal direction. It is also conceivable that the base is formed of a relatively lightweight synthetic resin such as polycarbonate resin.

However, the expectation that the hollow portion or the like is simply provided is reduced in weight, but the rigidity is lowered. Therefore, the straight tube type LED lamp in which the base is housed in the outer surface of the resin is easily bent in the longitudinal direction, as in the case of the base formed of the columnar body (lump) due to the weight of the outer tube and the weight of the base, There is a problem that the substrate on which the semiconductor device is mounted also warps in the longitudinal direction.

In addition, the resin base has a lower rigidity than that of a metal, and has the problem that it is liable to warp in the longitudinal direction as in the case of a metal. In addition, the base of the resin has a lower thermal conductivity than that of the metal, and has a problem that the heat radiating performance for dissipating the heat from the LED is deteriorated.

It is an object of the present invention to provide a straight tube light emitting lamp having an outer appearance of a resin whose warpage in the longitudinal direction is suppressed and a lighting apparatus including the straight tube light emitting lamp.

That is, the straight tube light emitting lamp of the present embodiment is constituted by including a resin tube, a light emitting body, a base, and a catch.

The resin tube is formed into an introductory tube having light-transmitting properties.

The light emitting body has a long substrate and a semiconductor light emitting element. The semiconductor light emitting element is provided along the longitudinal direction on one side of the substrate.

The base is made of metal and has an attachment portion, a toe portion, a pair of side portions, and an engagement portion, and the toe portion and the pair of side portions are formed thicker than the attachment portion and the engagement portion. The attachment portion is disposed on the other surface side of the substrate so that the one surface side of the substrate faces the inner surface of the resin pipe. The base portion is formed to extend along the longitudinal direction from the attachment portion to the inner surface of the resin pipe which is farthest from the one surface side of the substrate. The pair of side portions protrude from one side of the mounting portion on both sides in the shorter direction of the mounting portion. The coupling portion is coupled to the toe portion and the attachment portion or the pair of side portions. And the engaging portion is configured such that the attaching portion is at a predetermined position in the resin tube.

The nipping is provided at the end of the resin tube and has a power supply contact connected to the semiconductor light emitting element.

According to the straight tube type light emitting lamp of the present embodiment, the toe portion and the pair of side portions are located at the most distant positions, and each of the toe portions and the pair of side portions are thickly formed, so that they have rigidity against the self weight of the resin tube and the base, It can be expected that the warpage in the longitudinal direction is suppressed even if the expectation is formed to be lightweight.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic plan view of an intaglio type light emitting lamp through a resin pipe shown in the first embodiment. Fig.
2 is a schematic vertical cross-sectional view of an intaglio type light emitting lamp.
3 is a schematic vertical cross-sectional view of an intaglio type light emitting lamp showing a second embodiment.
4 is a schematic vertical cross-sectional view of an intuitive light emitting lamp showing a third embodiment.
5 is a schematic perspective view of a lighting apparatus showing a fourth embodiment.

Hereinafter, one embodiment will be described with reference to the drawings. First, a first embodiment will be described with reference to Figs. 1 and 2. Fig.

The intentional light emitting lamp 1 of the present embodiment is constructed as shown in Figs. 1 and 2. Fig. 1, an intaglio type light emitting lamp 1 is an introductory LED lamp which uses an LED element 2 as a light emitting element as a light source and includes a resin tube 3, a light emitting body 4, a base 5, 7). In Fig. 2, the retainers 6 and 7 are omitted.

The resin tube 3 is made of translucent synthetic resin, for example, polycarbonate (PC) resin, and is formed, for example, in an introductory shape with an outer diameter of 25 mm. The polycarbonate (PC) resin is mixed with a light diffusing agent.

In the present embodiment, as shown in Fig. 2, the outer surface 3a of the resin tube 3 is formed in a circular shape on the longitudinal section, and the inner surface 3b is formed in a predetermined shape. 2, the thickness of one end portion 3d from the apex portion 8a to the portions 8b and 8b near the central axis 3c of the resin tube 3 over the lengthwise direction of the resin tube 3 (t1) is gently increased in the range of 1.0 mm to 2.0 mm, for example. The thickness t2 of the other end side portion 3e from the portions 8b and 8b to the bottom portion 8c is formed to be substantially constant, for example, 0.8 mm. A pair of protruding portions 9 protruding for a predetermined length are provided on the inner surface 3b on the bottom 8c side of the other end side portion 3e in the longitudinal direction of the resin tube 3. The resin tube 3 is formed by, for example, extrusion molding.

The light emitting element 4 is arranged in the vicinity of the central axis 3c in the resin tube 3 with the LED element 2 facing the top 8a side. The pair of projections 9 are provided so as not to rotate the resin pipes 3 provided to be fitted in the retainers 6 and 7 and when the pair of projections 9 are to be rotated about the central axis 3c, do. The pair of projections 9 serve also as rails for inserting the base 5 into the resin tube 3. [

The light emitting unit 4 is formed by including a substrate 10 and a plurality of LED elements 2 as semiconductor light emitting elements. The substrate 10 is made of a synthetic resin plate having an insulating property, for example, a glass epoxy plate or a ceramic plate, and is formed into a long rectangular shape. The LED elements 2 are mounted on one surface 10a of the substrate 10 and are arranged in one line in this embodiment at equal intervals along the longitudinal direction of the substrate 10 as shown in Fig.

The LED elements 2 are connected in series and parallel by a wiring pattern (not shown). The LED elements 2 connected in series and in parallel are connected to a connector 12 provided on one end side of the substrate 10 by a wiring pattern (not shown). The LED element 2 is a packaged product and, for example, emitting white light is used. Further, a plurality of the light-emitting bodies 4 are used along the entire length of the resin tube 3.

The base 5 is provided in the resin pipe 3 so as to dispose the light emitting body 4 at a predetermined position in the resin pipe 3. [ 2, the base 5 is formed to have a toe portion 12, an attachment portion 13, a pair of side portions 14, and a coupling portion 15. As shown in Fig. The base 5 is made of a metal material having a high thermal conductivity, for example, aluminum (Al) and molded by, for example, extrusion molding.

The toe portion 12 is formed in the inner surface 3b of the resin tube 3 along the longitudinal direction of the resin tube 3 so as to support the entire base 5 with the inner surface 3b of the resin tube 3. [ Is formed into a substantially circular arc-shaped cross section. The toe portion 12 extends from the attachment portion 13 perpendicularly to the attachment portion 13 to the inner surface 3b of the resin pipe 3 which is the farthest from the one surface 10a side of the substrate 10, Direction. The toe portion 12 is formed so as to be disposed in the resin pipe 3 on the bottom portion 8c side of the pair of projecting portions 9. [

The attachment portion 13 is formed in a substantially flat plate shape having a flat attachment surface on which the other surface 10b side of the substrate 10 of the light emitting body 4 is provided. The attaching portion 13 is provided so as to be substantially parallel to the toe portion 12 and has the same plane as the imaginary plane orthogonal to the center in the shorter direction perpendicular to the center in the shorter direction of the toe portion 12 Respectively. That is, the attaching portion 13 has a configuration in which the toe portion 12 is perpendicular to the attaching portion 13 and extends from the attachment portion 13 to the side of the resin pipe 3 which is the farthest from the side of the one surface 10a of the substrate 10 And is disposed so as to be disposed in the inner surface 3b. A pair of side portions 14 are integrally provided on both sides of the attachment portion 13 in the short direction.

The pair of side portions 14 protrude from the attaching portion 13 toward one surface 10a side of the substrate 10 and are provided on both sides in the short side direction of the substrate 10. [ The pair of side portions 14 are provided so as to be brought into contact with the inner surface 3b of the resin pipe 3 on the top portion 8a side of the attachment portion 13. The pair of side portions 14 are formed in such a manner that the toe portion 12 is perpendicular to the attaching portion 13 and extends from the attaching portion 13 to the opposite side of the side of the surface 10a of the substrate 10, And is disposed at the farthest position from the toe base 12 because it is provided so as to follow the inner surface 3b.

The pair of side portions 14 are provided with a protruding portion 16 formed so as to sandwich both ends of the substrate 10 in the short-side direction with respect to the attaching portion 13. The protruding trough 16 has a reflecting surface 16a as a surface irradiated with white light emitted from the LED element 2 and the reflecting surface 16a is projected from the side of one surface 10a of the substrate 10 to the side of the resin tube 3 And is formed so as to be opened smoothly toward the inner surface 3b side. The protruding trough 16 is formed so as to come into contact with or close to both ends of the short side direction of the one surface 10a side of the substrate 10 so that the light emitting body 4 is fixed or almost fixed to the attaching portion 13. [

The engaging portion 15 connects the attaching portion 13 to the toe portion 12 so as to dispose the light emitting body 4 at a predetermined position in the resin tube 3. [ That is, in this embodiment, the attaching portion 13 is provided at a predetermined position in the resin tube 3, and the light emitting body 4 is disposed in the vicinity of the central axis 3c of the resin tube 3, And is located closer to the bottom 8c side. The luminous body 4 is provided so as to be away from the top portion 8a of the resin tube 3 so that the white light emitted from the LED element 2 is emitted as the luminous flux from the outer surface 3a of the resin tube 3, It is difficult to cause the LED element 2 to generate a particle feeling on the outer surface 3a on the side of the portion 8a.

The engaging portion 15 is formed in a thin plate shape and has a space 17 and a space 18 formed between the attachment portion 13 and the pair of side portions 14 and the toe portion 12 So that the toe portion 12 and the attaching portion 13 are engaged with each other. The space 17 is formed by a through hole extending in the longitudinal direction and the space 18 is formed by a concave groove extending in the longitudinal direction.

The base 5 is formed such that the toe portion 12 and the pair of side portions 14 are thicker than the attaching portion 13 and the engaging portion 15. [ The thickness t3 of the toe portion 12 and the thickness t4 of the pair of side portions 14 are equal to the thickness t5 of the attachment portion 13 and the thickness t6 of the engagement portion 15, 1.5 times or more. Here, the thicknesses t3 to t6 to be compared may be either the maximum or minimum thickness, the average thickness, or the thickness of the concave portion. In other words, the toe portion 12 and the pair of side portions 14 are formed thicker than the attachment portion 13 and the engagement portion 15 at a cross-sectional area orthogonal to the longitudinal direction.

In the base 5, a C-shaped rib 19 projecting in the space 17 is provided in the toe portion 12 along the longitudinal direction. The ribs 19 fix the caulkings 6 and 7 at both ends in the longitudinal direction of the base 5 by means of the screws to which the self-tap is attached.

In Fig. 1, the end portions 3f and 3g in the longitudinal direction of the resin pipe 3 are provided with nuts 6 and 7, respectively. The detainees 6 and 7 are detachable GX16t-5 of the standard of the Japanese bulb industry association and are made of a synthetic resin having electrical insulation, for example, a polybutylene terephthalate (PBT) resin, and are each formed into a cylindrical shape having a bottom . Both end portions 3f and 3g in the longitudinal direction of the resin pipe 3 are inserted into the nipples 6 and 7, respectively. The screws 6 and 7 are fixed to the base 5 by screws each having a self-tap, not shown, screwed into the ribs 19 of the base 5, respectively.

The retainer 6 is provided on the side of the power supply terminal, and a pair of the power supply contactors 20 are provided. The retainer 7 is provided on the side of the ground terminal, and one supporter 21 is provided. The pair of power supply contactors 20 are formed of, for example, brass and formed into a relatively thick substantially plate-like shape. The supporter 21 is formed in a rectangular parallelepiped shape and is provided at a central portion of the outer surface 22a of the bottom portion 22 of the detent 7. That is, the supporter 21 is integrally formed with the retaining member 7 and protrudes from the outer surface 22a of the bottom portion 22. [

The tab 6 is provided with a plate-like convex portion 24 on the outer surface 23a of the bottom portion 23 thereof. The convex portion 24 is formed in a substantially rectangular shape and is provided at a central portion of the outer surface 23a. The pair of power supply contactors 20 are installed by insert molding and penetrate the bottom 23 and the convex portion 24 of the retainer 6. [ The pair of power supply contactors 20 are attached to the convex portion 24 such that the front end side 20a thereof is bent so as to be L-shaped and in a direction away from each other. The pair of power supply contactors 20 are connected to the connector 12 provided on the board 10 by a not shown connecting line wired in the receptacle 6 and the resin pipe 3. [

The rotation of the resin tube 3 is regulated by the pair of projections 9 provided on the inner surface 3b of the resin tube 3 contacting the engaging portion 15 or the toe portion 12 of the base 5. The intuitive luminescent lamp 1 configured as described above is attached to the power socket and the support socket of the luminaire with the nail 6 and the nail 7.

Next, the operation of the first embodiment will be described.

When a predetermined electric power (constant current) is supplied to a pair of power supply contactors 20 of the retainer 6, the direct-view type light emitting lamp 1 emits light (light emission) when a plurality of LED elements 2 of the light emitter 4 are turned on And the white light is emitted from the LED element 3. And the white light is directly incident on the one end side portion 3d of the resin tube 3. A part of the diffused light of the white light is incident on the reflecting surface 16a of the protruding trough 16 provided on the pair of side portions 14 of the base 5. [ Since the reflecting surface 16a is formed so as to expand toward the inner surface 3b side of the resin tube 3 from the one surface 10a side of the substrate 10, the white light incident on the reflecting surface 16a is substantially reflected by the resin tube 3 And is incident on the one-end side portion 3d of the light- That is, the white light emitted from the LED element 2 is incident on the one end side portion 3d of the resin pipe 3 in a state where the light loss is small without being blocked by the pair of side portions 14.

The white light is optically diffused in the one end side portion 3d of the resin tube 3, and is transmitted through the resin tube 3 and radiated to the external space. The white light is diffused and radiated so that the light emission of each LED element 2 is hardly visible from the outside of the resin tube 3 and the resin tube 3 appears to be shining uniformly in the longitudinal direction. The light emitting device 4 is disposed on the bottom 8c side of the central axis 3c of the resin tube 3 so that the light emission of the individual LED elements 2 is hardly visible from the outside of the resin tube 3 .

It is assumed that the straight tube light emitting lamp 1 is attached to the lighting apparatus such that the light emitting body 4 faces downward (bottom surface side). Since the internally threaded lamps 1 and 6 are attached to the power source socket and the support socket of the lighting apparatus, the weight of the resin tube 3 and the base 5, (On the bottom surface side). Particularly, the action of the self weight in the longitudinal middle portion of the resin tube 3 is large.

The weight of the resin pipe acts on the entire base 5 from the toe portion 12 of the base 5. [ Then, the base 5 is deformed due to the self weight of the resin tube 3 and the base 5. Here, the stress in the direction orthogonal to the longitudinal direction, that is, the stress in the direction perpendicular to the attaching portion 13, which is the stress applied to the straight tube light emitting lamp 1 of the present embodiment, Lt; / RTI > That is, the stress perpendicular to the longitudinal direction occurs most at the toe portion 12 and the pair of side portions 14.

It is obvious that the metal forming the base 5, for example, aluminum is a rigid body, and the stiffness becomes larger as the thickness increases. However, if it is thickened to suppress deformation, it becomes heavy, and deformation due to its own weight becomes large. At this time, the deformation amount due to the weight of the base 5 becomes larger as the distance L between the toe portion 12 and the pair of side portions 14 in the deformation direction becomes larger, can do. That is, the distance L can be increased by forming the pair of side portions 14 on the side of the one surface 10a of the substrate 10, Also, by increasing the thickness of the pair of side portions 14 and the toe portion 12, it is possible to increase the rigidity at the position where the deformation direction is the greatest.

The stress applied to the attachment portion 13 and the engagement portion 15 at the time of deformation of the base 5 is small so that the attachment portion 13 and the engagement portion 15 each have a certain thickness, It was confirmed that it was difficult to be deformed. That is, it was confirmed that when the minimum thickness of the thinner portion is 0.6 mm or more, it is difficult to be deformed.

When the straight tube light emitting lamp 1 is attached to the illuminating device so that the light emitting body 4 faces upward (toward the ceiling front side), the weight of the resin tube 3 and the base 5 becomes larger than the weight of the pair of side portions 14 To the whole of the base 5. The pair of side portions 14 and the toe portion 12 of the base 5 act on the resin pipe 3 and the base 5 and the pair of side portions 14 and the toe portion 12 act Against self-weight. The toe portion 12 and the pair of side portions 14 are located at the most distant positions as described above, and each of them is thickly formed, thereby enhancing the rigidity of the base 5. [ As a result, the base 5 is difficult to be deformed by the weight of the resin tube 3 and the base 5.

As described above, the pair of side portions 14 are formed at the positions most distant from the toe portion 12 in the deformation direction, and the toe portion 12 and the pair of side portions 14 are each formed thick, By having rigidity against the weight of the base 5, the entire base 5 is hardly deformed. As a result, the base 5 and the resin tube 3 are prevented from warping in the longitudinal direction. The base 5 of the light emitter 4 is also prevented from warping in the longitudinal direction because the base 5 is not bent in the longitudinal direction.

The base 5 has a space 17 and a space 18 between the toe portion 12 and the attachment portion 13 and the pair of side portions 14. The attachment portion 13 and the engagement portion 15 ) Is thin, so that it is lightweight. Therefore, the straight tube light emitting lamp 1 is lightened. The lightweight direct-lit light emitting lamp 1 can be easily handled or attached to an illuminator.

According to the present embodiment, the base 5 is provided at the position where the toe portion 12 and the pair of side portions 14 are the most distant from each other, It is possible to suppress the warpage in the longitudinal direction even if the mounting portion 13 and the engaging portion 15 are made thin and lightweight. As a result, it is possible to reduce the weight of the straight tube type light emitting lamp 1, It is possible to suppress warping due to its own weight.

The pair of side portions 14 of the base 5 have projecting portions 16 formed so as to sandwich both ends of the substrate 10 in the short side direction between the attaching portions 13, The slant surface 16a is formed so as to extend from the side of the surface 10a of the substrate 10 toward the inner surface 3b of the resin tube 3. The light emitter 4 can be fixed or fixed to the base 5 with a simple structure, It is possible to reduce the light loss of the white light emitted from the LED element 2 and to emit the light as the light.

In the present embodiment, the light emitting device 4 uses the LED device 2 as the semiconductor light emitting device, but the present invention is not limited to this, and the LED chip may be formed on the substrate 10 by a COB (Chip On Board) . An organic electroluminescence (EL) element may also be used as the semiconductor light emitting element.

Next, a second embodiment will be described.

Fig. 3 is a schematic longitudinal sectional view showing the straight tube light emitting lamp 25 of the present embodiment. In addition, the same reference numerals are given to the same portions as those of FIG. 2 and the corresponding portions, and a description thereof is omitted.

The straight tube type luminescent lamp 25 is provided with a base 26 instead of the base 5 in the straight tube type luminescent lamp 1 shown in Fig. The base 26 is made of a metal material having a high thermal conductivity, for example, aluminum (Al), for example, by die casting and has a toe portion 27, an attaching portion 28, A pair of side portions 29, and a coupling portion 30. As shown in Fig.

The attachment portion 28 is formed in a substantially flat plate shape thinner than the attachment portion 13. The pair of side portions 29 are formed thinner than the pair of side portions 14, but are formed thicker than the attachment portion 28 and the engagement portion 30. The pair of side portions 29 are formed with a reflecting surface 16a on which the protruding trough 16 and the light emitted from the LED element 2 (white light) are irradiated similarly to the pair of side portions 14 .

The coupling portion 30 has one coupling portion 15 shown in FIG. 2 and a C-shaped rib 19 integrally formed to be thin. The toe portion 27 is formed so as to be connected to the tip of the C-shaped rib portion 32 of the engaging portion 30 and is provided along the longitudinal direction on the inner surface 3b of the resin tube 3 . The toe portion 27 is formed in a substantially circular arc shape along the inner surface 3b of the resin tube 3 so as to be thick and has a gap 33 of a predetermined width communicating with the inside of the rib portion 32 therebetween I have. The rib portion 32 fixes the tabs 6 and 7 at both ends in the longitudinal direction of the base 26 with a screw having a self-tap attached thereto.

The engaging portion 30 is formed so as to extend in a direction orthogonal to the short side direction center portion of the attaching portion 28 and the toe portion 27 extends perpendicularly to the attaching portion 28 from the attaching portion 28, Is formed on the inner surface (3b) of the resin pipe (3) which is the farthest from the one surface (10a) side of the resin pipe (10). Whereby the base 26 can make the distance L between the toe portion 27 and the pair of side portions 29 larger. The base 26 is formed to be lighter than the base 5 shown in Fig. 2 by forming one coupling portion 30 and a thin one.

The base 26 has a pair of side portions 29 and a toe portion 27 that are the most distant from each other and are each formed thick so as to have rigidity against the weight of the resin tube 3 and the base 26 It becomes difficult to be deformed. Thus, the straight tube light-emitting lamp 25 can be prevented from warping in its longitudinal direction, and light weight can be achieved by weight reduction of the base 26, which facilitates handling such as transportation and attachment.

On the inner surface 3b of the resin tube 3, a protruding portion 9A is provided as in Fig. The projecting portion 9A is formed so as to approach the rib portion 32 of the engaging portion 30 of the base 26. [ When the resin tube 3 rotates, the projecting portion 9A contacts the rib portion 32 to stop the rotation.

Next, the third embodiment will be described.

4 (a) to 4 (d) are schematic longitudinal sectional views showing the straight tube type light emitting lamps 35A to 35D of the present embodiment. In addition, the same reference numerals are given to the same portions as those of FIG. 2 and the corresponding portions, and a description thereof is omitted.

The resin tube 36 in the straight tube type light emitting lamps 35A to 35D has the same thickness t2 as the resin tube 3 shown in Fig. 2 except that it has a cylindrical shape of 0.8 mm . The intentional light emitting lamps 35A to 35D are formed in the same manner as the intentional light emitting lamp 1 shown in Fig. 1 except that the structures of the bases 37A to 37D are different.

The base 37A to 37D schematically differ in the structure of the coupling portion 15. The pair of side portions 14 are formed in a substantially rectangular parallelepiped shape in close contact with the inner surface 36b of the resin pipe 36. [

The base 37A is a combination of the toe portion 12 and the attaching portion 13 by one engaging portion 15. The projections 37B and 37C are formed by joining the toe portion 12 and the attaching portion 13 by two engaging portions 15. [ The base 37B is provided so that the engaging portion 15 is parallel and the base 37C is provided such that the engaging portion 15 is extended. The base 37D is formed in an arc shape in which the engaging portion 15 is in close contact with the inner surface 36b of the resin tube 36 and is joined to the pair of side portions 14 . The engaging portion 15 engages the toe portion 12 and the attachment portion 13 or the pair of side portions 14 as shown in the bases 37A to 37D.

The projections 37A to 37D are formed at the positions where the toe portions 12 and the pair of side portions 14 are at the most distant positions and are each formed thick so as to have a corresponding rigidity. , It is difficult to be deformed by the weight of the base 37A to 37D and the resin tube 36 by the same action. Therefore, the straight tube type light emitting lamps 35A to 35D can suppress the warpage of the resin tube 36 and the base 37A to 37D in the longitudinal direction and have an effect of facilitating handling by reducing the weight.

Next, the fourth embodiment will be described.

Fig. 5 shows a lighting apparatus 41 of the present embodiment. The lighting device 41 is a base light attached to the front surface of the ceiling, and comprises a mechanism body 42, the straight tube type light emitting lamp 1 shown in FIG. 1, and the lighting device 43. The instrument body 42 is made of, for example, a cold rolled steel plate and is formed of a long box body having a single plate 44 and a reflection plate 45. A pair of sockets 46 and 47 are attached to the instrument body 42 at both ends 42a and 42b of the instrument body 42 in the longitudinal direction. In addition, the instrument body 42 is provided with a lighting device 43 inside thereof.

In the pair of sockets 46 and 47, the nosepieces 6 and 7 of the straight tube type light emitting lamp 1 are inserted and connected. The socket 46 becomes a power socket, and the socket 47 becomes a support socket. The lighting device 43 is configured to supply a constant current to the straight tube type light emitting lamp 1 and to light the straight tube type light emitting lamp 1. [

According to the lighting device 41 of the present embodiment, since the straight tube light emitting lamp 1 is prevented from warping in the longitudinal direction of the resin tube 3, it has an effect that stable illumination can be performed without damaging the external appearance.

Further, the lighting device 41 of the present embodiment is not limited to a direct attachment type, and may be a recessed-type or a submerged-type lighting device.

Although some embodiments of the present invention have been described, these embodiments are provided by way of example and are not intended to limit the scope of the invention. These new embodiments can be implemented in various other forms, and various omissions, substitutions, and alterations can be made without departing from the gist of the invention. These embodiments and their modifications fall within the scope and spirit of the invention and fall within the scope of the invention described in the claims and their equivalents.

1: Intrinsic light emitting lamp 2: LED element
3: a resin tube 4: a light emitter
5: anticipation 6, 7: detention
10: substrate 12:
13: attachment part 14: a pair of side parts
15: engaging portion 16: protruding portion
17, 18: space 19: rib
20: power supply contactor 23:
24: convex portion 26: expectation
27: toothed portion 30:
32: rib portion 33: air gap

Claims (10)

An intro- duction-type resin pipe having translucency;
A light emitting body having a long type substrate and a semiconductor light emitting element provided along a longitudinal direction on one surface side of the substrate;
A mounting portion for mounting the other surface side of the substrate so that the one surface side of the substrate is opposed to the inner surface of the resin tube; A pair of side portions protruding from the attachment portion to one surface side of the substrate on both sides in the short direction of the attachment portion and a coupling portion coupling the toe portion and the attachment portion or the pair of side portions, A metal base on which the toe portion and the pair of side portions are thicker than the attachment portion and the engagement portion; And
And a power supply contact connected to the semiconductor light emitting element, wherein the power supply contact is provided at an end of the resin tube;
And a light source for emitting light. The method according to claim 1,
Wherein the base portion and the pair of side portions are formed at the most distant positions. The method according to claim 1,
Wherein the pair of side portions are formed so as to sandwich both ends of the substrate in the short side direction between the side portions of the substrate and the mounting portion, and a surface irradiated with light from the semiconductor light emitting element is formed on the inner surface Wherein the light emitting diode is formed to be widened toward the light emitting side. The method according to claim 1,
Wherein an inner surface of the resin tube is provided with a protrusion for regulating the rotation of the base relative to the resin tube by contact with the engaging portion or the toe portion. The method according to claim 1,
Wherein said base has a space formed between said toe portion and said attachment portion and said pair of side portions. The method according to claim 1,
Wherein the thickness of the toe portion and the pair of side portions is 1.5 times or more the thickness of the attachment portion and the engagement portion. An intro- duction-type resin pipe having translucency; A light emitting body having a substrate of a long shape and a semiconductor light emitting element provided along a longitudinal direction on one side of the substrate; A mounting portion for mounting the other surface side of the substrate so that the one surface side of the substrate is opposed to the inner surface of the resin tube; A pair of side portions protruding from the attachment portion to one surface side of the substrate on both sides in the short direction of the attachment portion and a coupling portion coupling the toe portion and the attachment portion or the pair of side portions, A metal base having the toe portion and the pair of side portions formed to be thicker than the attachment portion and the engagement portion; And a power supply contact connected to the semiconductor light emitting device, the introductory light emitting lamp having a nip provided at an end of the resin pipe;
A mechanism body having a socket to which a nip of the intaglio type light emitting lamp is connected; And
And a lighting device for lighting the straight tube type light emitting lamp. 8. The method of claim 7,
Wherein the base is formed at a position where the toe portion and the pair of side portions are at the farthest distance. 8. The method of claim 7,
Wherein the pair of side portions are formed so as to sandwich both end portions of the substrate in the short side direction with respect to the attaching portion, and a surface irradiated with light from the semiconductor light emitting element is formed on the inner surface The lighting device being configured to be opened toward the side of the vehicle. 8. The method of claim 7,
Wherein said base has a space formed between said toe portion, said attachment portion and said pair of side portions.

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